CN209297730U - A kind of display Driver Card with double TYPE-C global function interfaces - Google Patents

Abstract

The utility model discloses a kind of display Driver Card with double TYPE-C global function interfaces, including the first TYPE-C interface, the 2nd TYPE-C interface, two TYPE-C interfaces connect equipment, the second connection equipment connection with first respectively；First TYPE-C interface, the 2nd TYPE-C interface are bi-directionally connected with PD power control circuit, and PD power control circuit is bi-directionally connected by DC-DC converter and system power supply；PD power control circuit is connect with protocol chip, and protocol chip is connect with two TYPE-C interfaces respectively by communication control circuit, and two TYPE-C interfaces pass through USB port switch connection USB HUB chip；Two TYPE-C interfaces pass through the first SWITCH chip respectively, the 2nd SWITCH chip is connect with display signal processing circuit, and protocol chip is connect with the positive anti-plug control signal end of the first SWITCH chip, the 2nd SWITCH chip respectively.

Description

A kind of display Driver Card with double TYPE-C global function interfaces

Technical field

The utility model relates to electronics field more particularly to a kind of displays with double TYPE-C global function interfaces Driver Card.

Background technique

Display driving plate is the interface card for connecting host and display screen, and effect is to be converted into the output information of host The information such as character, figure and color are transmitted to display screen display；The present unparalleled USB-C of display driving plate on the market (TYPE-C) Full Featured interface, it is extremely inconvenient for some Leading format screens, it is unable to satisfy the use demand of people.

Summary of the invention

The utility model aim is in view of the above-mentioned problems, providing that a kind of structure is simple, easy-to-use has double TYPE-C The display Driver Card of global function interface.

To achieve the goals above, the technical solution of the utility model is:

A kind of display Driver Card with double TYPE-C global function interfaces, including the first TYPE-C interface, second TYPE-C interface, the first TYPE-C interface, the 2nd TYPE-C interface signal input part connect respectively with first equipment, second connect Connect the signal output end connection of equipment；The first TYPE-C interface, the 2nd TYPE-C interface power end with PD power supply control Circuit processed is bi-directionally connected, and PD power control circuit is bi-directionally connected by DC-DC converter and system power supply；PD power control circuit Control signal input and the control signal output of protocol chip connect, the CC signal connection end of protocol chip passes through communication Control circuit is connect with the CC signal connection end of the first TYPE-C interface, the 2nd TYPE-C interface respectively, the first TYPE-C interface, Signal input part of the USB2.0 signal end of 2nd TYPE-C interface with USB port switch is bi-directionally connected, USB port switching The signal output end of device is connect by USB HUB chip with several USB interfaces；First TYPE-C interface, the 2nd TYPE-C connect The output signal end of mouth is separately connected the signal input part of the first SWITCH chip, the 2nd SWITCH chip, the first SWITCH core Piece, the 2nd SWITCH chip signal output end connect with display signal processing circuit, the positive anti-plug of protocol chip control signal Output end is connect with the positive anti-plug control signal input of the first SWITCH chip, the 2nd SWITCH chip respectively, protocol chip Selection control signal output connect with the signal input part of USB port switch.

Further, the PD power control circuit includes the first metal-oxide-semiconductor Q13 and the second metal-oxide-semiconductor Q12, the first MOS The grid of pipe Q13 is connected with the one end resistance R33, the end TYPEC0_VBUS of the resistance R33 other end and the first TYPE-C interface Son connection, the grid of the second metal-oxide-semiconductor resistance Q12 are connected with the one end resistance R256, the resistance R256 other end and second The TYPEC1_VBUS terminal of TYPE-C interface connects, the drain electrode of the first metal-oxide-semiconductor Q13 respectively with the end TYPEC0_VBUS_DET Son be connected with the one end resistance R254, the drain electrode of the second metal-oxide-semiconductor Q12 respectively with TYPEC1_VBUS_DET terminal and resistance The one end R256 is connected, and the resistance R254 and the resistance R256 other end are connected with DC-DC converter, the first metal-oxide-semiconductor Q12 It is grounded respectively with the source electrode of the second metal-oxide-semiconductor Q13, the first metal-oxide-semiconductor Q13 and the second metal-oxide-semiconductor Q12 model are 2N7002.

Further, the DC-DC converter uses buck mode DC-DC converter TD1583, the DC-DC converter The SW terminal of TD1583 exports 5V direct current.

Further, the communication control circuit includes third metal-oxide-semiconductor and the 4th metal-oxide-semiconductor, the third metal-oxide-semiconductor drain electrode D1, D2, D3, D4 terminal are connected with the TYPEC0_VBUS terminal of the first TYPE-C interface, the 4th metal-oxide-semiconductor drain electrode D1, D2, D3, D4 terminal are connected with the TYPEC1_VBUS terminal of the 2nd TYPE-C interface, the third metal-oxide-semiconductor and Four metal-oxide-semiconductor models are 9435.

Further, the display signal processing circuit is shown at signal including the first display signal processing circuit, second Manage circuit；First display signal processing circuit includes first capacitor C134, the second capacitor C135；One end of first capacitor C134 point Not Lian Jie the AUXP-0 terminal of the first SWITCH chip, one end of resistance R212, resistance R913 one end, first capacitor C134's The AUX-CHP-0 terminal of other end connection display screen；The other end of resistance R212 connects the end 3V3-SYS of the first SWITCH chip Son, the DP-SINK-ASS-P0 terminal of the other end connection display screen of resistance R913；One end of second capacitor C135 is separately connected The AUXN-0 terminal of first SWITCH chip, one end of resistance R221, resistance R211 one end, the other end of the second capacitor C135 Connect the AUX-CHN-0 terminal of display screen；The other end of resistance R221 is grounded, the other end connection display screen of resistance R211 DP-SINK-ASS-N0 terminal；Second display signal processing circuit includes third capacitor C141, the 4th capacitor C142；Third capacitor One end of C141 is separately connected one end of the AUXP-1 terminal of the 2nd SWITCH chip, one end of resistance R245, resistance R244, the The AUX-CHP-1 terminal of the other end connection display screen of three capacitor C141；The other end of resistance R245 connects the 2nd SWITCH core The 3V3-SYS terminal of piece, the DP-SINK-ASS-P1 terminal of the other end connection display screen of resistance R244；4th capacitor C142's One end is separately connected one end of the AUXN-1 terminal of the 2nd SWITCH chip, one end of resistance R246, resistance R243, the 4th capacitor The AUX-CHN-1 terminal of the other end connection display screen of C142；The other end of resistance R246 is grounded, and the other end of resistance R243 connects Connect the DP-SINK-ASS-N1 terminal of display screen.

Compared with prior art, the utility model has the advantages and positive effects of:

Display Driver Card two of the utility model have global function TYPE-C interface, all can be display screen offer Power supply, signal and USB2.0 " up going port " or " down going port "；In use, when only one connection of two TYPE-C interfaces When equipment connects, the protocol chip on display Driver Card can be connected by communication control circuit with equipment is connect, and from even Equipment power-extracting is connect, taking electricity failure, then display screen does not work；It takes electricity success then to light display screen, and is cut by connecting USB port Parallel operation connects USB HUB chip, and multiple USB interfaces for data connection are extended by USB HUB chip；When other one When a TYPE-C interface connects second connection equipment, display Driver Card is set by communication control circuit and second connection Standby connection, so that its power supply capacity is detected, when power supply capacity is greater than first connection equipment, so that it provides corresponding electric current To system power supply, first connection equipment is used when Data Connection Equipment；When less than first connection equipment of its power supply capacity, the Two connection equipment are used when Data Connection Equipment；The utility model examines different connection equipment by TYPE-C interface It surveys, the display screen of TV, mobile phone or plate is provided when needing power supply by connecting equipment, and preferentially select The stronger connection equipment of power supply capacity, and the equipment charge weak to power supply capacity are selected, the use effect of the utility model is improved Fruit brings great convenience to the use of people.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, before not making the creative labor property It puts, is also possible to obtain other drawings based on these drawings.

Fig. 1 is the utility model frame construction drawing；

Fig. 2 is the pin connection figure of the first TYPE-C interface；

Fig. 3 is the pin connection figure of the 2nd TYPE-C interface；

Fig. 4 is the pin connection figure of the first SWITCH chip；

Fig. 5 is the pin connection figure of the 2nd SWITCH chip；

Fig. 6 is the circuit structure diagram of the first display signal processing circuit；

Fig. 7 is the circuit structure diagram of the second display signal processing circuit；

Fig. 8 is the pin connection figure of protocol chip；

Fig. 9 is the circuit structure diagram of communication control circuit；

Figure 10 is the circuit structure diagram of PD power control circuit；

Figure 11 is the pin connection figure of DC-DC converter；

Figure 12 is the pin connection figure of USB port switch；

Figure 13 is the pin connection figure of USB HUB chip；

Figure 14 is the pin connection figure of USB interface.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, any modification, equivalent replacement, improvement and so on should be included in the utility model Within protection scope.

As shown in figs. 1 to 14, a kind of display Driver Card with double TYPE-C global function interfaces, including first TYPE-C interface, the 2nd TYPE-C interface, the first TYPE-C interface, the 2nd TYPE-C connecter type are Type C-Mid-Mount SMT；First TYPE-C interface, the 2nd TYPE-C interface signal input part connect respectively with first equipment, second connection equipment Signal output end connection；The first TYPE-C interface, the 2nd TYPE-C interface power end with PD power control circuit It is bi-directionally connected, PD power control circuit is bi-directionally connected by DC-DC converter and system power supply；The control of PD power control circuit The connection of the control signal output of signal input part and protocol chip, the model LDR6023 of protocol chip；The CC of protocol chip Signal connection end is connected with the CC signal connection end of the first TYPE-C interface, the 2nd TYPE-C interface respectively by communication control circuit It connects, the first TYPE-C interface, the USB2.0 signal end of the 2nd TYPE-C interface are double with the signal input part of USB port switch To connection, the model AZAW2210F of USB port switch；The signal output end of USB port switch passes through USB HUB core Piece is connect with several USB interfaces；USB interface is for connecting the data connections product such as keyboard, mouse；The type of USB HUB chip Number be FE1.1S；First TYPE-C interface, the 2nd TYPE-C interface output signal end be separately connected the first SWITCH chip, The signal input part of two SWITCH chips, the model SWITCH460S of the first SWITCH chip, the 2nd SWITCH chip；First SWITCH chip, the 2nd SWITCH chip signal output end with display signal processing circuit connect, the positive anti-plug of protocol chip Control signal output is connect with the positive anti-plug control signal input of the first SWITCH chip, the 2nd SWITCH chip respectively, The selection control signal output of protocol chip is connect with the signal input part of USB port switch.

The PD power control circuit includes the first metal-oxide-semiconductor Q13 and the second metal-oxide-semiconductor Q12, the grid of the first metal-oxide-semiconductor Q13 Pole is connected with the one end resistance R33, and the resistance R33 other end is connect with the TYPEC0_VBUS terminal of the first TYPE-C interface, institute The grid for stating the second metal-oxide-semiconductor resistance Q12 is connected with the one end resistance R256, the resistance R256 other end and the 2nd TYPE-C interface TYPEC1_VBUS terminal connection, the drain electrode of the first metal-oxide-semiconductor Q13 respectively with TYPEC0_VBUS_DET terminal and resistance The one end R254 be connected, the drain electrode of the second metal-oxide-semiconductor Q12 respectively with TYPEC1_VBUS_DET terminal and the one end resistance R256 phase Even, the resistance R254 and the resistance R256 other end are connected with DC-DC converter power output end 5V_SYS, and described first The source electrode of metal-oxide-semiconductor Q12 and the second metal-oxide-semiconductor Q13 are grounded respectively, and the first metal-oxide-semiconductor Q13 and the second metal-oxide-semiconductor Q12 model are 2N7002。

The DC-DC converter uses buck mode DC-DC converter TD1583, the SW of the DC-DC converter TD1583 Terminal output or input 5V direct current, the VCC_IN terminal of DC-DC converter TD1583 are connect with system power supply.

The communication control circuit includes third metal-oxide-semiconductor and the 4th metal-oxide-semiconductor, the third metal-oxide-semiconductor drain D 1, D2, D3, D4 Terminal is connected with the TYPEC0_VBUS terminal of the first TYPE-C interface, the 4th metal-oxide-semiconductor drain D 1, D2, D3, D4 Terminal is connected with the TYPEC1_VBUS terminal of the 2nd TYPE-C interface, the third metal-oxide-semiconductor and the 4th metal-oxide-semiconductor model It is 9435.

The display signal processing circuit includes the first display signal processing circuit, the second display signal processing circuit；The One display signal processing circuit includes first capacitor C134, the second capacitor C135；One end of first capacitor C134 is separately connected The AUXP-0 terminal of one SWITCH chip, one end of resistance R212, resistance R913 one end, the other end of first capacitor C134 connects Connect the AUX-CHP-0 terminal of display screen；The other end of resistance R212 connects the 3V3-SYS terminal of the first SWITCH chip, resistance The DP-SINK-ASS-P0 terminal of the other end connection display screen of R913；One end of second capacitor C135 is separately connected first The AUXN-0 terminal of SWITCH chip, one end of resistance R221, resistance R211 one end, the second capacitor C135 the other end connection The AUX-CHN-0 terminal of display screen；The other end of resistance R221 is grounded, the DP- of the other end connection display screen of resistance R211 SINK-ASS-N0 terminal；Second display signal processing circuit includes third capacitor C141, the 4th capacitor C142；Third capacitor One end of C141 is separately connected one end of the AUXP-1 terminal of the 2nd SWITCH chip, one end of resistance R245, resistance R244, the The AUX-CHP-1 terminal of the other end connection display screen of three capacitor C141；The other end of resistance R245 connects the 2nd SWITCH core The 3V3-SYS terminal of piece, the DP-SINK-ASS-P1 terminal of the other end connection display screen of resistance R244；4th capacitor C142's One end is separately connected one end of the AUXN-1 terminal of the 2nd SWITCH chip, one end of resistance R246, resistance R243, the 4th capacitor The AUX-CHN-1 terminal of the other end connection display screen of C142；The other end of resistance R246 is grounded, and the other end of resistance R243 connects Connect the DP-SINK-ASS-N1 terminal of display screen.Display drive can be used in display screen on mobile phone, TV or plate Movable plate card.

TYPE-C interface highest provides 100w power supply, and USB2.0/USB3.0 is existed simultaneously, supported positive anti-plug, can transmit Vision signal (function of will affect USB3.0)；Application of the TYPE-C interface in display field is drawn using the hardware of USB3.O Foot transmission display signal, while being powered using VBUS power supply.

The utility model is there are two Full Featured USB-C (TYPE-C) interface, comprising: power supply, agreement communication, USB2.0, Vision signal), the function of the two signaling interfaces is completely the same.

Workflow explanation:

Equipment (computer, mobile phone, plate) is connected to one of TYPE-C interface, and VBUS first provides fundamental power supply to association Chip power supply is discussed, protocol chip and equipment carry out capacity of power communication, request power supply, and equipment provides power supply power supply to display screen, And USB port switch is controlled, allow the USB port of equipment (computer, mobile phone, plate) to become " uplink port " (host side), this There is USB-HUB (i.e. USB serial port chip) on the display Driver Card of utility model, can support multiple USB devices while connect It connects, while equipment can read the EDID of display screen, understands the display capabilities that display screen can be supported, and send out display signal, show Show that signal is shown by Scaler master control processing (showing signal processing circuit) driving display screen；There is another identical to set When standby access；Protocol chip first can link up with the equipment that is followed by and understand its power input, fan-out capability, come determine system by Which equipment power supply, and give other equipment charge, the USB2.0 accessed afterwards can be assigned to " down going port " (be similar to keyboard, Mouse, USB flash disk) interface, it can solve the compatibling problem of power supply and USB2.0 equipment in this way.At this time, plant-grid connection (or first connects Power supply, rear access device) when；If the equipment be inserted into below is only power-supply device, protocol chip can first and the equipment that is followed by into Row, which is linked up, understands its power supply fan-out capability, and requests suitable power supply to the equipment charge first accessed and give us display device Power supply.

Switch chip is to support to show the anti-problem of signal sequence in the positive anti-plug of USB-C.It is assisted in positive anti-plug View chip can detect, and notify Switch chip.

USB port switch is that the equipment that protocol chip is used to control access is connected with USB-HUB " uplink port " Or with " downlink port " connection, the equipment of access is that power supply then connects " downlink port ", and the equipment of access is (computer, hand Machine, plate), then what is first accessed is " uplink port ".

It is the explanation of the working principles of our double USB-C display Driver Cards, control logic and the order of connection above.

Embodiment is solely for for chip pin schematic diagram of the Fig. 2 into Figure 14 and circuit structure diagram, to its circuit In capacitance, resistance value be not construed as limiting, and the analogous circuit of other structures can be also used in the technical program, also cope with it It is protected.

Two TYPE-C interfaces on display Driver Card all have signal reception, data transmission and PD power management Function, one TYPE-C interface can be used for power input when in use, another TYPE-C interface for data pass It is defeated, it is convenient and efficient；In addition, in use, when only one the connection equipment connection of two TYPE-C interfaces, display is driven Protocol chip on movable plate card can be connected by communication control circuit with equipment is connect, and from connection equipment power-extracting, take electricity failure Then display screen does not work；It takes electricity success then to light display screen, and USB HUB chip is connected by connection USB port switch, And multiple USB interfaces for data connection are extended by USB HUB chip.

When accessing two connection equipment:

1. power unit: the equipment power-extracting that system can be strong from power supply fan-out capability, and the equipment charge weak to capacity of power；

The coupling part 2.USB2.0: if the equipment first accessed has been " upper port ", the equipment accessed afterwards is lower end Mouthful, the equipment such as first accessed does not use " upper port ", then the equipment connection " upper port " accessed afterwards.

3. showing signal section: the case where according to equipment, keeping it from changes, (equipment is exported, then receives display；It does not export, It does not show).

The utility model detects different connection equipment by TYPE-C interface, so that TV, mobile phone or plate Display screen when needing power supply can by connect equipment be provided, and preferentially selection power supply capacity it is stronger connection set It is standby, and charge for weaker equipment, the using effect of the utility model is improved, is brought greatly to the use of people Convenience.

Claims (5)

1. a kind of display Driver Card with double TYPE-C global function interfaces, including the first TYPE-C interface, the 2nd TYPE- C interface, the first TYPE-C interface, the 2nd TYPE-C interface signal input part connect respectively with first equipment, second connection set Standby signal output end connection；It is characterized by: the power end of the first TYPE-C interface, the 2nd TYPE-C interface is and PD Power control circuit is bi-directionally connected, and PD power control circuit is bi-directionally connected by DC-DC converter and system power supply；PD power supply control The control signal input of circuit processed and the control signal output of protocol chip connect, and the CC signal connection end of protocol chip is logical It crosses communication control circuit to connect with the CC signal connection end of the first TYPE-C interface, the 2nd TYPE-C interface respectively, the first TYPE- C interface, the 2nd TYPE-C interface signal input part of the USB2.0 signal end with USB port switch be bi-directionally connected, the end USB The signal output end of mouth switch is connect by USB HUB chip with several USB interfaces；First TYPE-C interface, second The output signal end of TYPE-C interface is separately connected the signal input part of the first SWITCH chip, the 2nd SWITCH chip, and first SWITCH chip, the 2nd SWITCH chip signal output end with display signal processing circuit connect, the positive anti-plug of protocol chip Control signal output is connect with the positive anti-plug control signal input of the first SWITCH chip, the 2nd SWITCH chip respectively, The selection control signal output of protocol chip is connect with the signal input part of USB port switch.

2. the display Driver Card with double TYPE-C global function interfaces as described in claim 1, it is characterised in that: described PD power control circuit includes the grid and resistance R33 of the first metal-oxide-semiconductor Q13 and the second metal-oxide-semiconductor Q12, the first metal-oxide-semiconductor Q13 One end is connected, and the resistance R33 other end is connect with the TYPEC0_VBUS terminal of the first TYPE-C interface, second metal-oxide-semiconductor The grid of resistance Q12 is connected with the one end resistance R256, the TYPEC1_ of the resistance R256 other end and the 2nd TYPE-C interface VBUS terminal connection, the drain electrode of the first metal-oxide-semiconductor Q13 respectively with TYPEC0_VBUS_DET terminal and the one end resistance R254 phase Even, the drain electrode of the second metal-oxide-semiconductor Q12 is connected with TYPEC1_VBUS_DET terminal and the one end resistance R256 respectively, the resistance R254 and the resistance R256 other end are connected with DC-DC converter, the source electrode of the first metal-oxide-semiconductor Q12 and the second metal-oxide-semiconductor Q13 It is grounded respectively, the first metal-oxide-semiconductor Q13 and the second metal-oxide-semiconductor Q12 model are 2N7002.

3. the display Driver Card with double TYPE-C global function interfaces as described in claim 1, it is characterised in that: described DC-DC converter uses buck mode DC-DC converter TD1583, and the SW terminal output 5V of the DC-DC converter TD1583 is straight Galvanic electricity.

4. the display Driver Card with double TYPE-C global function interfaces as described in claim 1, it is characterised in that: described Communication control circuit includes third metal-oxide-semiconductor and the 4th metal-oxide-semiconductor, the third metal-oxide-semiconductor drain D 1, D2, D3, D4 terminal with it is described The TYPEC0_VBUS terminal of first TYPE-C interface is connected, the 4th metal-oxide-semiconductor drain D 1, D2, D3, D4 terminal with it is described The TYPEC1_VBUS terminal of 2nd TYPE-C interface is connected, and the third metal-oxide-semiconductor and the 4th metal-oxide-semiconductor model are 9435.

5. the display Driver Card with double TYPE-C global function interfaces as described in claim 1, it is characterised in that: described Show that signal processing circuit includes the first display signal processing circuit, the second display signal processing circuit；At first display signal Managing circuit includes first capacitor C134, the second capacitor C135；One end of first capacitor C134 is separately connected the first SWITCH chip AUXP-0 terminal, one end of resistance R212, resistance R913 one end, the other end connection display screen of first capacitor C134 AUX-CHP-0 terminal；The other end of resistance R212 connects the 3V3-SYS terminal of the first SWITCH chip, and resistance R913's is another The DP-SINK-ASS-P0 terminal of end connection display screen；One end of second capacitor C135 is separately connected the first SWITCH chip AUXN-0 terminal, one end of resistance R221, resistance R211 one end, the second capacitor C135 the other end connection display screen AUX- CHN-0 terminal；The other end of resistance R221 is grounded, the end DP-SINK-ASS-N0 of the other end connection display screen of resistance R211 Son；Second display signal processing circuit includes third capacitor C141, the 4th capacitor C142；One end of third capacitor C141 connects respectively One end of the AUXP-1 terminal of the 2nd SWITCH chip, one end of resistance R245, resistance R244 are connect, third capacitor C141's is another The AUX-CHP-1 terminal of end connection display screen；The other end of resistance R245 connects the 3V3-SYS terminal of the 2nd SWITCH chip, The DP-SINK-ASS-P1 terminal of the other end connection display screen of resistance R244；One end of 4th capacitor C142 is separately connected second The AUXN-1 terminal of SWITCH chip, one end of resistance R246, resistance R243 one end, the 4th capacitor C142 the other end connection The AUX-CHN-1 terminal of display screen；The other end of resistance R246 is grounded, the DP- of the other end connection display screen of resistance R243 SINK-ASS-N1 terminal.